The continued growth of demand on multi-temperature products and wide spread of timely customer demand has greatly contributed to the challenge of logistics carriers. Under the MTJD system and various deterioration of products, how to design a service strategy to serve consumers with distinct demand has become an important issue for a MTJD carrier to achieve cost effective while maintain the maximized customer satisfaction. In practice, the categories of the multi-temperature distribution system include single-temperature distribution and MTJD. Some studies have analyzed the problems on distributing regular and/or specific-temperature products but few of them focused on multi-temperature products. Past studies have largely discussed the development of techniques applied in the MTJD system. Moreover, in the field of physical distribution problems, the MTJD problem combined with techniques employed are seldom discussed. Furthermore, storage assignment could be considered as one of the most prominent factors in improving short-term operational efficiency of the distribution center, but storage assignment is often neglected in the short-term operational efficiency planning. This study attempts to solve the issues related to multi-temperature distribution on land and is separated into two sections: mid-term facilities planning, and short-term operational planning. Assuming that terminal locations and demands are known, mid-term facilities planning aims to minimize the total delivery cost, tries to find the most suitable multi-temperature joint distribution system techniques, product handling quantity, vehicle type, vehicle size, vehicle route, and delivery frequency, and at the same time without sacrificing customer satisfaction. Distribution cost includes product handling and transportation costs. Transportation cost, included in the fixed and variable costs during the initial investment process can further break down into vehicle cost and terminal cost. Under the automated storage and retrieval system and with the condition that terminals use traditional single-temperature distribution, short-term operational planning constructs two stages of dynamic storage assignment methods for refrigerated food. The first stage assignment assigns storage food to retailers and takes the overdue food out by analyzing the perishable properties of food according to its expiration time. The layout of occupied and vacant space will be obtained by this assignment. The second stage assignment combines the demand forecast results of various refrigerated items using dynamic grey predictions and the results of the first stage assignment. And continuously assigns different food items to empty space according to their forecasted demands efficiently. Lastly, this study conducts analysis on series of cases studies and finds that in mid-term facilities planning, results indicate the model is feasible for facilities planning for MTJD. The replaceable cold accumulation and insulation box MTJD technique is suitable for operation networks with densely distributed terminals and uneven temporal and/or spatial demand distribution. For short-term operational planning, a simulated case study about practical automated storage and retrieval system is provided to demonstrate the feasibility and the results of applying the proposed model. The results show that the model developed in this study can result in higher space utilization as compared with those conventional models.